Header listing for HDU #1: SIMPLE = T / conformity to FITS standard BITPIX = 16 / number of bits per data pixel NAXIS = 0 / number of data axes EXTEND = T / possibility of presence of extensions FMTTYPE = 'HAYABUSA2 IMAGE ONC L2a' / type of format in FITS file FTYPEVER= '20210831' / version of FMTTYPE definition CNTTYPE = 'ONC-W1 SMEARCORRECTED' / type of data content CNTVER = '20210831' / version of data content ORIGIN = 'ISAS/JAXA' / organization responsible for the data DATE = '2021-09-05T11:59:39' / date of generation of this HDU in UTC TELESCOP= 'HAYABUSA2' / telescope used to acquire data SPCECRFT= 'HAYABUSA2' / name of spacecraft NEXTEND = 1 / number of standard extensions FILENAME= 'hyb2_onc_20190920_143056_w1f_l2a.fit' / original filename COMMENT COMMENT ****** HYB2 IMG DB Information ****** COMMENT P_REV = 0 / revision of this file IMGMOD = 'SCIENCE ' / image type: SCIENCE/NAVDUMP HISTORY Using ONC-L1a.cpp program compiled at Mar 29 2019 17:54:59 END Header listing for HDU #2: XTENSION= 'IMAGE ' / type of extension BITPIX = 16 / number of bits per data pixel NAXIS = 2 / number of data axes NAXIS1 = 1024 / length of data axis 1 NAXIS2 = 1024 / length of data axis 2 PCOUNT = 0 / number of parameters per group GCOUNT = 1 / number of groups EXTNAME = 'ONC-LEVEL2a' / name of this HDU EXTVER = 1 / version of the extension ORIGIN = 'HAYABUSA2 ONC team' / organization responsible for the data DATE = '2021-08-31T03:17:48' / date of generation of this HDU in UTC DATE-BEG= '2019-09-20T14:30:26.014' / date of the start of observation in UTC DATE-OBS= '2019-09-20T14:30:56.798' / date of the middle of observation in UTC DATE-END= '2019-09-20T14:31:27.583' / date of the end of observation in UTC TELESCOP= 'HAYABUSA2' / telescope used to acquire data SPCECRFT= 'HAYABUSA2' / name of spacecraft INSTRUME= 'Optical Navigation Camera' / name of instrument OBJECT = 'RYUGU ' / name of observed object MSNPHASE= 'PROXIMITY' / mission phase OPETYPE = 'TM-ORB(TargetMarkerObservation)' / operation type BUNIT = 'DN ' / physcal units of the array values BUNITDU = 1.000000E+00 / quantity of this product for 1count@L2a DYNRNG = 4.096000E+03 / dynamic range@FOV center [BUNIT] DYNRNGLN= 3.100000E+03 / linearity range@FOV center [BUNIT] DATAMAX = 32760 / maximum data value DATAMIN = 2080 / minimum data value MEAN = 2659.505 / mean value of the data STDDEV = 2808.953 / standard deviation of the data COMMENT COMMENT ******* ONC observation information ******* COMMENT NAIFNAME= 'HAYABUSA2_ONC-W1' / SPICE instrument name NAIFID = -37110 / SPICE instrument ID XPOSURE = 5.57 / Exposure time [sec] FILTER = 'NONE ' / selected flter of ONC-T BANDCSEL= 5.750000E-01 / effective band center (selected) [um] BANDWSEL= 1.450000E-01 / effective band width (selected) [um] CCDTSEL = -2.515000E+01 / CCD temperature (selected) [degC] AETSEL = 3.090000E+00 / ONC-AE temperature (same as ONC_AET) [degC] ELETSEL = -9.860000E+00 / electric circuit temperature (selected) [degC] NSUBIMG = 8 / number of subimage COMMENT ****** ONC_STATUS of Sub image No. 0 ***** TI0 = '0x7AD6D7EB' / spacecraft clock count [1/32 sec] AE_MODE0= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL0 = 'DE ' / ONC-E/DE sel T_DRVS0 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL0 = 'OFF ' / ONC-T SEL status T_EXP0 = 1.05 / ONC-T exposure time [sec] FILTER0 = 'NO.3: 550nm' / ONC-T filter name FFLAST0 = 'OFF ' / flatfield lamp A status FFLBST0 = 'OFF ' / flatfield lamp B status W1_DRVS0= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL0 = 'ON ' / ONC-W1 SEL status W1_EXP0 = 5.57 / ONC-W1 exposure time [sec] FLSTAT0 = 'DISABLE ' / flash lamp status W2_DRVS0= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL0 = 'OFF ' / ONC-W2 SEL status W2_EXP0 = 0. / ONC-W2 exposure time [sec] FWD_TEC0= 0 / FWD time out error count FWD_NUL0= 'T ' / FWD null position flag: T/F FWD_PST0= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST0= 'NON ' / FWD RESET status: NON/RESET FWD_DRV0= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE0= 0 / FWD counter error CNT FWD_SC0 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 1 ***** TI1 = '0x7AD6D8EB' / spacecraft clock count [1/32 sec] AE_MODE1= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL1 = 'DE ' / ONC-E/DE sel T_DRVS1 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL1 = 'OFF ' / ONC-T SEL status T_EXP1 = 1.05 / ONC-T exposure time [sec] FILTER1 = 'NO.3: 550nm' / ONC-T filter name FFLAST1 = 'OFF ' / flatfield lamp A status FFLBST1 = 'OFF ' / flatfield lamp B status W1_DRVS1= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL1 = 'ON ' / ONC-W1 SEL status W1_EXP1 = 5.57 / ONC-W1 exposure time [sec] FLSTAT1 = 'DISABLE ' / flash lamp status W2_DRVS1= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL1 = 'OFF ' / ONC-W2 SEL status W2_EXP1 = 0. / ONC-W2 exposure time [sec] FWD_TEC1= 0 / FWD time out error count FWD_NUL1= 'T ' / FWD null position flag: T/F FWD_PST1= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST1= 'NON ' / FWD RESET status: NON/RESET FWD_DRV1= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE1= 0 / FWD counter error CNT FWD_SC1 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 2 ***** TI2 = '0x7AD6D9EB' / spacecraft clock count [1/32 sec] AE_MODE2= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL2 = 'DE ' / ONC-E/DE sel T_DRVS2 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL2 = 'OFF ' / ONC-T SEL status T_EXP2 = 1.05 / ONC-T exposure time [sec] FILTER2 = 'NO.3: 550nm' / ONC-T filter name FFLAST2 = 'OFF ' / flatfield lamp A status FFLBST2 = 'OFF ' / flatfield lamp B status W1_DRVS2= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL2 = 'ON ' / ONC-W1 SEL status W1_EXP2 = 5.57 / ONC-W1 exposure time [sec] FLSTAT2 = 'DISABLE ' / flash lamp status W2_DRVS2= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL2 = 'OFF ' / ONC-W2 SEL status W2_EXP2 = 0. / ONC-W2 exposure time [sec] FWD_TEC2= 0 / FWD time out error count FWD_NUL2= 'T ' / FWD null position flag: T/F FWD_PST2= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST2= 'NON ' / FWD RESET status: NON/RESET FWD_DRV2= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE2= 0 / FWD counter error CNT FWD_SC2 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 3 ***** TI3 = '0x7AD6DAEB' / spacecraft clock count [1/32 sec] AE_MODE3= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL3 = 'DE ' / ONC-E/DE sel T_DRVS3 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL3 = 'OFF ' / ONC-T SEL status T_EXP3 = 1.05 / ONC-T exposure time [sec] FILTER3 = 'NO.3: 550nm' / ONC-T filter name FFLAST3 = 'OFF ' / flatfield lamp A status FFLBST3 = 'OFF ' / flatfield lamp B status W1_DRVS3= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL3 = 'ON ' / ONC-W1 SEL status W1_EXP3 = 5.57 / ONC-W1 exposure time [sec] FLSTAT3 = 'DISABLE ' / flash lamp status W2_DRVS3= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL3 = 'OFF ' / ONC-W2 SEL status W2_EXP3 = 0. / ONC-W2 exposure time [sec] FWD_TEC3= 0 / FWD time out error count FWD_NUL3= 'T ' / FWD null position flag: T/F FWD_PST3= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST3= 'NON ' / FWD RESET status: NON/RESET FWD_DRV3= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE3= 0 / FWD counter error CNT FWD_SC3 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 4 ***** TI4 = '0x7AD6DBEB' / spacecraft clock count [1/32 sec] AE_MODE4= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL4 = 'DE ' / ONC-E/DE sel T_DRVS4 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL4 = 'OFF ' / ONC-T SEL status T_EXP4 = 1.05 / ONC-T exposure time [sec] FILTER4 = 'NO.3: 550nm' / ONC-T filter name FFLAST4 = 'OFF ' / flatfield lamp A status FFLBST4 = 'OFF ' / flatfield lamp B status W1_DRVS4= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL4 = 'ON ' / ONC-W1 SEL status W1_EXP4 = 5.57 / ONC-W1 exposure time [sec] FLSTAT4 = 'DISABLE ' / flash lamp status W2_DRVS4= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL4 = 'OFF ' / ONC-W2 SEL status W2_EXP4 = 0. / ONC-W2 exposure time [sec] FWD_TEC4= 0 / FWD time out error count FWD_NUL4= 'T ' / FWD null position flag: T/F FWD_PST4= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST4= 'NON ' / FWD RESET status: NON/RESET FWD_DRV4= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE4= 0 / FWD counter error CNT FWD_SC4 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 5 ***** TI5 = '0x7AD6DCEB' / spacecraft clock count [1/32 sec] AE_MODE5= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL5 = 'DE ' / ONC-E/DE sel T_DRVS5 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL5 = 'OFF ' / ONC-T SEL status T_EXP5 = 1.05 / ONC-T exposure time [sec] FILTER5 = 'NO.3: 550nm' / ONC-T filter name FFLAST5 = 'OFF ' / flatfield lamp A status FFLBST5 = 'OFF ' / flatfield lamp B status W1_DRVS5= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL5 = 'ON ' / ONC-W1 SEL status W1_EXP5 = 5.57 / ONC-W1 exposure time [sec] FLSTAT5 = 'DISABLE ' / flash lamp status W2_DRVS5= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL5 = 'OFF ' / ONC-W2 SEL status W2_EXP5 = 0. / ONC-W2 exposure time [sec] FWD_TEC5= 0 / FWD time out error count FWD_NUL5= 'T ' / FWD null position flag: T/F FWD_PST5= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST5= 'NON ' / FWD RESET status: NON/RESET FWD_DRV5= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE5= 0 / FWD counter error CNT FWD_SC5 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 6 ***** TI6 = '0x7AD6DDEB' / spacecraft clock count [1/32 sec] AE_MODE6= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL6 = 'DE ' / ONC-E/DE sel T_DRVS6 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL6 = 'OFF ' / ONC-T SEL status T_EXP6 = 1.05 / ONC-T exposure time [sec] FILTER6 = 'NO.3: 550nm' / ONC-T filter name FFLAST6 = 'OFF ' / flatfield lamp A status FFLBST6 = 'OFF ' / flatfield lamp B status W1_DRVS6= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL6 = 'ON ' / ONC-W1 SEL status W1_EXP6 = 5.57 / ONC-W1 exposure time [sec] FLSTAT6 = 'DISABLE ' / flash lamp status W2_DRVS6= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL6 = 'OFF ' / ONC-W2 SEL status W2_EXP6 = 0. / ONC-W2 exposure time [sec] FWD_TEC6= 0 / FWD time out error count FWD_NUL6= 'T ' / FWD null position flag: T/F FWD_PST6= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST6= 'NON ' / FWD RESET status: NON/RESET FWD_DRV6= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE6= 0 / FWD counter error CNT FWD_SC6 = '0x0000 ' / FWD step counter COMMENT ****** ONC_STATUS of Sub image No. 7 ***** TI7 = '0x7AD6DEEB' / spacecraft clock count [1/32 sec] AE_MODE7= 'SHOT ' / ONC-AE mode STDBY/SHOT OD_SEL7 = 'DE ' / ONC-E/DE sel T_DRVS7 = 'OFF ' / ONC-T DRV ON/OFF status T_SEL7 = 'OFF ' / ONC-T SEL status T_EXP7 = 1.05 / ONC-T exposure time [sec] FILTER7 = 'NO.3: 550nm' / ONC-T filter name FFLAST7 = 'OFF ' / flatfield lamp A status FFLBST7 = 'OFF ' / flatfield lamp B status W1_DRVS7= 'ON ' / ONC-W1 DRV ON/OFF status W1_SEL7 = 'ON ' / ONC-W1 SEL status W1_EXP7 = 5.57 / ONC-W1 exposure time [sec] FLSTAT7 = 'DISABLE ' / flash lamp status W2_DRVS7= 'OFF ' / ONC-W2 DRV ON/OFF status W2_SEL7 = 'OFF ' / ONC-W2 SEL status W2_EXP7 = 0. / ONC-W2 exposure time [sec] FWD_TEC7= 0 / FWD time out error count FWD_NUL7= 'T ' / FWD null position flag: T/F FWD_PST7= 'OFF ' / ONC filterwheel position sensor status ON/OFF FWD_RST7= 'NON ' / FWD RESET status: NON/RESET FWD_DRV7= 'STOP ' / FWD DRV status: STOP/RUN FWD_SCE7= 0 / FWD counter error CNT FWD_SC7 = '0x0000 ' / FWD step counter COMMENT ********* Misc. INFO ************ NPIXBIN = 1 / binning pixel: 1 (NON BINNING) 2 4 8 ROI_LLX = 1 / x of lower left of ROI in detector coord. ROI_LLY = 1 / y of lower left of ROI in detector coord. ROI_URX = 1024 / x of upper right of ROI in detector coord. ROI_URY = 1024 / y of upper right of ROI in detector coord. L0FILE = '37676_20190920144042_00017AD72448.img' / filename of raw image in L0 COMMENT COMMENT ******* HAYABUSA2 Onbord Image Processing Information ******* COMMENT IMGCMPRV= 'LOSSLESS' / image compression style: NOTCOMP/LOSSLES/LOSS IMGCMPAL= 'STARPIXEL' / image compression type: NOTCOMP/STARPIXEL IMGCMPPR= '0x30 ' / Image compression parameter IMGPRCST= 'NORMAL END' / Image processing err log: NORMAL END/ERR INFO COMMENT COMMENT ******* HAYABUSA2 Spacecraft Clock Information ******* COMMENT SCCL-BEG= '2/2060900331' / HAYABUSA2 S/C clock start count SCCL-END= '2/2060902123' / HAYABUSA2 S/C clock end count COMMENT COMMENT ******* HAYABUSA2 Image Processing Information ******* COMMENT BITDEPTH= 12 / bit pixel depth actually used 12/10/8 SMEARCR = 'NON ' / smear correction (L2B) : NON/ONBOARD/GROUND BIASCR = 'NON ' / bias correction (L2B) : NON/ONBOARD/GROUND DARKCR = 'F ' / dark correction (L2B) : T/F NLINERCR= 'F ' / non-linearyty correction (L2B) : T/F FLATCR = 'F ' / flat correction (L2B): T/F STRLCR = 'F ' / stray light correction (L2B): T/F ELCRCFN = 'N/A ' / electric circuit correct. file (L2B) LINCRCFN= 'N/A ' / non-linearity correct. file (L2B) FLATCFN = 'N/A ' / flatfield parameter set file (L2B) FLATFN = 'N/A ' / flatfield file (L2B) FLATTDFN= 'N/A ' / flatfield T-dep. file (L2B) STRLPFN1= 'NON ' / stray light pattern_file 1 (L2B) STRLPFN2= 'NON ' / stray light pattern_file 2 (L2B) STRLPFN3= 'NON ' / stray light pattern_file 3 (L2B) DISTCR = 'F ' / distortion correction (L2C): T/F AOFFSET = 'F ' / alignment offset correc. (L2C): T/F RADCONV = 'F ' / conversion to radiance (L2C) : T/F DISTCFN = 'N/A ' / distortion correction file name (L2C) RADCCFN = 'N/A ' / radiometric calibration file (L2C) CCDTDCFN= 'N/A ' / ccd T-dep. correct. file (L2C) SENSSEL = 0.000000E+00 / sensitivity (L2C)[(counts/sec)/(W/m2/um/str)] SCALPRD = 0 / sensitivity cal. period : 1-TD1-2-TD2-3 SCALDAY = 4E+01 / time from the start of cal. period [day] SOLDISCR= 'F ' / solar distance correction (L2D): T/F SOLDCAL = 0.000000E+00 / solar distance used for calibration (L2D) [au] SOLIRRAD= 0.000000E+00 / effective solar irradiance@1AU (L2D) [W/m2/um] PHOTOCR = 'F ' / photometric correction (L2E): T/F PHOTOCFN= 'N/A ' / phase function file name (L2E) COMMENT COMMENT ******* Version Information of FITS Keyword Dictionary ******* COMMENT DICVER = '2018-01-28' / version of common keyword dictionary for HYB2 HISTORY HISTORY OPERATOR: Manabu YAMADA HISTORY DATE: 2019-09-30T17:25:11 HISTORY TASK: Generate FITS file. ONC Image Header Conversion. HISTORY SOFT: $RCSfile:$ $Revision:$ program HISTORY compiled at Mar 29 2019 17:54:59 COMMENT COMMENT ****** ONC House Keeping Data ****** COMMENT BUS_V = 49.28 / bus line voltage [V] ONC_I = 0.52 / ONC current value [A] FLAC_I = 0.00 / FLA-C current value [A] ONC_AET = 3.09 / ONC-AE temperature [degC] T_OPTT = 20.08 / ONC-T optics temperature [degC] T_CCDT = -29.50 / ONC-T CCD temperature [degC] T_ELET = -11.97 / ONC-T electric circuit temperature [degC] W1_OPTT = 2.81 / ONC-W1 optics temperature [degC] W1_CCDT = -25.15 / ONC-W1 CCD temperature [degC] W1_ELET = -9.86 / ONC-W1 electric circuit temperature [degC] W2_OPTT = 0.01 / ONC-W2 optics temperature [degC] W2_CCDT = -24.84 / ONC-W2 CCD temperature [degC] W2_ELET = -4.12 / ONC-W2 electric circuit temperature [degC] FLAC_T = -11.10 / FLA-C temperature [degC] COMMENT COMMENT ****** HYB2 Geometry Information at observation ****** COMMENT S_DISTHR= 20.2055 / distance between HYB2 and Ryugu [km] S_DISTHE= 2.37508D+08 / distance between HYB2 and Earth [km] S_DISTHS= 1.44091D+08 / distance between HYB2 and Sun [km] S_DISTRS= 1.44091D+08 / distance between Ryugu and Sun [km] S_TGRADI= 0.4325 / Ryugu radius at the equator [km] S_APPDIA= 2.45303 / apparent diameter of Ryugu [deg] S_IFOV = 0.0011882 / instantaneous field of view [rad] S_SOLLAT= -3.89419 / sub solar latitude [deg] of Ryugu S_SOLLON= -112.65 / sub solar longitude [deg] of Ryugu S_SSCLAT= -3.94274 / HYB2 sub S/C latitude [deg] of Ryugu S_SSCLON= -112.979 / HYB2 sub S/C longitude [deg] of Ryugu S_SSCLT = 11.9781 / HYB2 sub S/C local time [h] of Ryugu S_SCPJ2X= -3.64496D+07 / S/C X position from the Sun in J2000 [km] S_SCPJ2Y= 1.30905D+08 / S/C Y position from the Sun in J2000 [km] S_SCPJ2Z= 4.79318D+07 / S/C Z position from the Sun in J2000 [km] COMMENT COMMENT ****** RA/DEC Information at observation ****** COMMENT S_RA = 104.661 / RA of image center (J2000) [deg] S_DEC = 19.3755 / DEC of image center (J2000) [deg] S_RA1 = 147.979 / RA of bottom-left corner of image [deg] S_DEC1 = 41.0283 / DEC of bottom-left corner of image [deg] S_RA2 = 64.7257 / RA of bottom-right corner of image [deg] S_DEC2 = 47.0759 / DEC of bottom-right corner of image [deg] S_RA3 = 131.457 / RA of top-left corner of image [deg] S_DEC3 = -14.135 / DEC of top-left corner of image [deg] S_RA4 = 72.9899 / RA of top-right corner of image [deg] S_DEC4 = -9.69383 / DEC of top-right corner of image [deg] COMMENT COMMENT ****** S/C ATT Information at observation ****** COMMENT S_SCXSAN= 90.57 / angle of S/C X axis and sun direction [deg] S_SCYSAN= 90.07 / angle of S/C Y axis and sun direction [deg] S_SCZSAN= 0.57 / angle of S/C Z axis and sun direction [deg] S_SCPHAN= 7.569690E-01 / angle of S/C twisting phi [deg] S_SCGMAN= -7.001354E+00 / angle of S/C twisting gamma [deg] S_SLFLG = 'F ' / stray light flag for ONC-T: T/F COMMENT COMMENT COMMENT COMMENT ****** BEGIN SPICE KERNELS ******** COMMENT pck00010.tpc, hyb2_ryugu_SHAPE_v20180829.tpc, hyb2_onc_v04.ti, COMMENT naif0012.tls, hyb2_v13.tf, hyb2_ryugu_v01.tf, hyb2_hp_v01.tf, COMMENT hyb2_latest_v01.tsc, de430.bsp, 2162173_Ryugu.bsp, COMMENT 20180627-20191231_0060_20180821_eph-ju3.bsp, COMMENT eph-ryugu_for_hpk_20180627T0400_20191119T0100_v20191118T0231.bsp, COMMENT eph-hyb2_TM-ORB_od_20190912-20190921_v20190920233311.bsp, COMMENT hyb2_hkattrpt_2019_v02.bc, hyb2_aocsc_2019_v02.bc, COMMENT lidar_derived_trj_20191114_no6dofc_v03.bsp COMMENT ****** END SPICE KERNELS ********** COMMENT HISTORY HISTORY OPERATOR: Manabu YAMADA HISTORY DATE: 2020-11-02T12:14:22 HISTORY TASK: Update FITS file with HK data and ancillary data. HISTORY SOFT: $RCSfile:$ $Revision:$ program HISTORY compiled at Sep 25 2020 15:54:29 COMMENT COMMENT ****** Spice kernels used to calculate values for keyword S_* ****** COMMENT S_PCK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice pck kernel S_LSK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice lsk kernel S_IK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice ik kernel S_SPK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice spk kernel S_FK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice fk kernel S_SCLK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice sclk kernel S_CK = 'PLEASE SEE SPICE KERNELS IN COMMENT' / spice ck kernel COMMENT COMMENT ****** Information related to backplanes such as i, e, g, lon., lat. * COMMENT ***** COMMENT M_FCLAT = 0.000000E+00 / lat. of Ryugu at FOV center [deg] M_FCLON = 0.000000E+00 / long. of Ryugu at FOV center [deg] M_FCDIST= 0.000000E+00 / distance to Ryugu at FOV center [m] M_FCRES = 0.000000E+00 / spatial resolution at FOV center [m/pixel] M_4CNLAT= '{null, null, null, null} ' / lat. of Ryugu at FOV corners [deg] M_4CNLON= '{null, null, null, null} ' / lon. of Ryugu at FOV corners [deg] M_VER = '20200323SPC' / version of backplane data M_MKERN1= 'hyb2_shape_v20200323.tm' / spice meta kernel file 1 for backplane M_MKERN2= 'hyb2_analysis_v20191120T073245.tm' / spice meta kernel file 2 for bac M_MKERN3= 'NON ' / spice meta kernel file 3 for backplane M_DSK = 'SHAPE_SPC_3M_v20200323.bds' / shape model file for backplane M_BPFIL = 'hyb2_onc_20190920_143056_w1f_l2dbpc.fit' / backplane file HISTORY HISTORY OPERATOR: ONC Team HISTORY DATE: 2021-08-31T03:17:48 HISTORY TASK: ./ONC_l2aupdate HISTORY SOFTWARE: ./ONC_l2aupdate HISTORY HISTORY OPERATOR: ONC Team HISTORY DATE: 2021-09-05T11:59:39 HISTORY TASK: ./ONC_L2updateHeaderBP HISTORY SOFTWARE: ./ONC_L2updateHeaderBP END